高温力学性能

T91钢管多采用TIG焊，焊接接头高温力学性能对T91钢的应用起至关重要的作用。

Welding T91 steel pipe is usually used TIG welding , mechanical behavior under high temperature of welded joints played an important role .

向Fe-Al-B三元合金中加入C、Ti或V元素后，合金的组织得到了细化，并且在合金内生成了大量的弥散分布的TiC或VC颗粒，提高了合金的抗弯强度和高温力学性能。

After adding C , Ti or V , the microstructure of Fe-Al-B alloys is refined , and TiC or VC particles that disperse in matrix increase the bend strength and mechanical behavior under high temperature .

高温力学性能测试SiC夹具加工工艺研究

Machining of High Temperature Mechanical Property Measurement SiC Fixture

Al2O3／TiB2／SiCw陶瓷材料的高温力学性能研究

Study on High Temperature Mechanical Properties of Al2_O_3 / TiB_2 / SiC_w Composites

用粉末冶金方法研究了弥散相Y＿2O＿3的含量和颗粒大小与分布对银合金高温力学性能的影响。

A dispersion strengthened silver containing Y_2O_3 as dispersion phase was prepared by powder metallurgical technology .

交联后PVC高温力学性能和耐热变形性提高。

The mechanical properties at high temperature and heat deformation resistance of PVC were improved after silane crosslinking .

Al2O3-SiO2系耐火材料高温力学性能

High temperature mechanical properties of al_2o_3-sio_2 system refractories

晶界相预合成对Si3O4陶瓷显微结构和高温力学性能的影响

Effect of Pre-Synthetic Grain-Boundary Phase on Microstructure and High Temperature Mechanical Properties of Si_3N_4 Ceramics

TiB和La2O3体积分数对原位合成钛基复合材料高温力学性能的影响

Volume fraction effect of reinforcements on high temperature mechanical properties of in situ synthesized titanium matrix composites reinforced with TiB and La_2O_3

Y2O3-ZrO2陶瓷的高温力学性能

High-temperature mechanical behaviour of y_2o_3-zro_2 ceramics

TiAl基金属间化合物的优良高温力学性能使其可能成为新一代航空航天工程用的轻质高温结构材料。

The excellent mechanical behavior of TiAl intermetallics at elevated temperature makes it a possible new generation structure material serving as aeronautical material .

研究了加入βSiAlON对矾土基超低水泥浇注料高温力学性能的影响。

The effect of β SiAlON addition on high temperature mechanical properties of bauxite based ultra low cement castables was studied .

低活性Fe-Cr-Mn（W，V）奥氏体合金长期时效高温力学性能和相稳定性研究

Study on high temperature tensile property and microstructure stability of low activation Fe-Cr-Mn ( W , V ) austenitic alloy aged for 1000h under different temperatures

TiB（2P）/6061Al复合材料断裂行为及高温力学性能研究

Study on Fracture Behaviour and High Temperature Mechanical Properties of TiB_ ( 2P ) / 6061Al Composite

Nd的最佳含量则为0.5wt%，此时AZ61镁合金的高温力学性能最佳；

While the best content for Nd is 0.5 % , at where the high-temperature mechanical properties are the best .

简要介绍了近年来Si、Al、K掺杂对钼丝再结晶温度的提高和高温力学性能的改善方面的研究，同时综合分析了Si、Al、K掺杂对钼的作用机理。

The recent studies on the increase of recrystallization temperature and the improvement of high temperature mechanical property in the Si-Al-K-doped molybdenum wire are briefly introduced . The mechanism of Si - Al-K doping is also analyzed .

本文从钢水化学成分影响钢的高温力学性能的角度，研究了钢水主要成分对CSP薄板坯表面纵裂的影响。

According to the high-temperature mechanical property of steel , influence of middle carbon steel chemical composition on longitudinal surface cracks of CSP slab has been studied .

制备了3种不同成分的镁-稀土合金，研究稀土（RE）元素铈（Ce）、钕（Nd）和钇（Y）对镁合金铸态组织、力学性能尤其是高温力学性能的影响。

Three kinds of Mg-RE alloys were prepared in the interest of analyze the influence of the Rare Earth ( RE ) elements on the mechanical properties in Mg alloys at room temperature and elevated temperature .

Pt-Pd-Rh合金的高温力学性能

High-temperature Mechanical Properties of Pt-Pd-Rh Alloys

用陶瓷型壳浇注了TiAlZr合金，研究了精铸TiAlZr合金的相组成、铸造显微组织、室温和高温力学性能及断口形貌。

Ti Al Zr alloy was cast into a ceramic shell mould by investment technology . Microstructure phase constitution and mechanical properties at room temperature and elevated temperature and fracture morphology of Ti Al Zr alloy were studied .

本文研究了MgO加入物对我国水铝石-高岭石类型（DK型）高铝矾土烧结后物相组成、显微结构和高温力学性能的影响。

Effect of MgO addition on phase composition , microstructure and mechanical properties at high temperature of sintered Chinese bauxites of diaspore-kaolinite ( DK ) type has been investigated .

针对挤压态ZK60镁合金的高温力学性能及其超塑性行为进行了研究。

The superplasticity and high-temperature mechanical properties of as-extruded ZK60 alloys are investigated .

氢对Ti-60钛合金显微组织和高温力学性能的影响

Effects of hydrogen on the microstructure and high temperature mechanical properties of Ti-60 alloy

通过TG-DTA、X衍射对氧化物陶瓷型壳的面层和背层进行了分析，测试了陶瓷型壳的常温、高温力学性能和热膨胀系数，对型壳试样的断口进行了SEM观察。

Face and back coating materials of ceramic shells were analysed by TG-DTA and X ray diffraction . Room temperature and elevate temperature mechanical properties and coefficient thermal expansion were measured . Fracture morphology of shells were observed by SEM .

321奥氏体不锈钢作为一种Ti稳定化不锈钢具有良好的高温力学性能；在不同浓度、不同温度的有机酸和无机酸中，尤其是在氧化性介质中具有良好的耐腐蚀性能。

As a Ti stabilized stainless steel , 321 austenitic stainless steel is characterized by excellent mechanical properties in high temperature ; It has good corrosion resistance in organic acids and inorganic acids at different concentrations and temperatures , particularly in the oxidizing medium .

在TZP基体中加入第二相粒子成为复合材料，是提高TZP韧性和高温力学性能的有效方法。

The addition of second phase particles to TZP matrix as a ceramic composite is an effective way to improve the toughness and high temperature properties of TZP .

在Gleeble-2000动态热模拟试验机上采用凝固法研究了高碳钢的高温力学性能。

This paper studies the high temperature mechanical properties of high carbon steel by solidifying method on Gleeble-2000 experiment machine .

设计并采用热压烧结的方法成功制备了TiCP/W和ZrCp/W两个系列碳化物颗粒增强钨基新型复合材料，并对其组织结构、室温力学性能及高温力学性能进行了系统研究。

TiCp / W and ZrCp / W composites were designed and prepared by vacuum hot-pressing . The microstructure , room and elevated temperature mechanical properties of the composites were studied in detail .

采用Gleeble-1500热模拟试验机测量了高碳钢连铸板坯的高温力学性能，得到了第Ⅰ、第Ⅲ脆性温度区的温度范围。

High temperature properties of continuous casting high carbon steels were measured by tensile tests with a Gleeble 1500 system and two embrittlement temperature regions of region I and region III were found .

在一定的Al2O3含量范围内，MAC制品的高温力学性能优于镁碳砖，主要原因是其基质中生成的致密晶间尖晶石提高了基质中高熔点晶体间的直接结合程度。

The high-temperature mechanical properties of MAC products are better than those of magnesia-carbon products when Al 2O 3 content is in a certain range mainly because dense intercrystalline spinel formed in the matrix of MAC products improves the direct-bonding degree between the high-melting point crystalline in the matrix .